"Okay,” agreed Craven, “you find me something solid and within reach that's measurable. Something, preferably, about 200 million miles or so across. Then I'll tell you how far we are from the Sun. This ship is not in an orbit. It's not fixed in space. I have no accurate way of measuring distances and angles simultaneously and accurately. Especially angles as small as these would be."
Craven and Stutsman glared at one another.
"It's a long way however you look at it,” the financier said. “If we're going to get there, well have to start as soon as possible. How soon can we start, Doctor?"
"Very soon. I have the gravity concentration field developed and Manning left me just enough power to get a good start.” He chuckled, took off his glasses, wiped the lenses and put them back on again. “Imagine him giving me that power!"
"But after we use up that power, what are we going to do?” demanded Chambers. “This collector lens of yours won't furnish us enough to keep going."
"You're right,” Craven conceded, “but we'll be able to get more. We'll build up what speed we can and then we'll shut off the drive and let momentum carry us along. In the meantime our collector will gather power for us. We're advancing toward the source of radiation now, instead of away from it. Out here, where there's little gravity stress, fewer conflicting lines of gravitation, we'll be able to spread out the field, widen it, make it thousands of miles across. And the new photo-cells will be a help as well."
"How are the photo-cells coming?” asked Chambers.
Craven grinned. “We'll have a bank of them in within a few hours, and replace the others as fast as we can. I have practically the whole crew at work on them. Manning doesn't know it, but he found the limit of those photo-cells when he was heaving energy at us back in the Solar System. He blistered them. I wouldn't have thought it possible, but it was. You have to hand it to Manning and Page. They are a couple of smart men."
To the eye there was only one slight difference between the old cells and the new ones. The new type cell, when on no load, appeared milky white, whereas the old cells on no load were silvery. The granular surface of the new units was responsible for the difference in appearance, for each minute section of the surface was covered with even more minute metallic hexagonal pyramids and prisms.
"Just a little matter of variation in the alloy,” Craven explained. “Crystalization of the alloy, forming those little prisms and pyramids. As a result, you get a surface thousands of times greater than in the old type. Helps you absorb every bit of the energy."